A latch mechanism associated with one of a convertible top and a automobile component is provided. The latch mechanism is adapted to cooperate with an engagement member associated with the other of the convertible top and the automobile component. A hook, a first guide pin and a second guide pin are provided. The first and second guide pins are associated with the hook. A first guide slot is associated with the first guide pin and a second guide slot is associated with the second guide pin. A drive mechanism is associated with the latch assembly and adapted to move each of the first and second guide pins along its respective first and second guide slot to move the hook between a latched position and an unlatched position.
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20. A convertible top latch mechanism comprising:
a hook associated with a guide slot and a guide pin, the guide slot and guide pin being adapted to cooperate to guide the hook in a direction having a radial component and then in a linear direction along an axis corresponding to a linear portion of a path the hook takes without causing relative transverse movement between a convertible top and an automobile component as the hook is moved from an unlatched to a latched position; and a drive mechanism adapted to drive the guide pin along the guide slot, the drive mechanism having a pair of elongated pivot arms aligned, spaced apart and adapted to accommodate a drive link centrally located between the pair of pivot arms and attached to each of the pivot arms, the pair of pivot arms having a longitudinal axis, when the latch mechanism is in the latched position, which is substantially parallel to the linear direction.
1. A convertible top latch mechanism comprising:
a hook; a first guide pin and a second guide pin, the first and second guide pins being associated with the hook; a first guide slot in a substantially planar member associated with the first guide pin and a second guide slot in the substantially planar member and separate from the first guide slot and associated with the second guide pin; each of the first and second guide slots having a segment which is substantially aligned along an axis of the hook in the latched position, the first guide slot having an additional segment extending in a lateral direction away from the axis, the second guide slot having an additional segment extending in a lateral direction away from the axis and laterally opposite the first guide slot; and a drive mechanism adapted to move each of the first and second guide pins along its respective first and second guide slot to move the hook between a latched position and an unlatched position.
11. A convertible top system comprising:
(a) an engagement member associated with one of a convertible top and an automobile component; (b) a latch assembly associated with the other of the convertible top and the automobile component, the latch assembly having: (i) an elongated hook member having a midpoint, a distal end and a longitudinal axis; (ii) a first guide pin associated with the midpoint and a second guide pin associated with the distal end, (iii) a first and a second plate member spaced apart and accommodating the hook member between the first and second plate members, each plate member having a non-vertical orientation and having a first guide slot cooperating with a first guide slot in the other plate member and a second guide slot cooperating with a second guide slot in the other plate member, each of the first and second guide slots having a segment which is substantially aligned along a longitudinal axis running through the hook in the latched position, the first guide slots having an additional segment extending in a lateral direction away from the longitudinal axis, the second guide slots having an additional segment extending in a lateral direction away from the longitudinal axis and opposite to the first guide slot, the first guide pin extending into the first guide slots and the second guide pin extending into the second guide slots; and (c) a drive mechanism associated with the latch assembly and adapted to drive each of the guide pins along its respective guide slot and move the hook between a latched and an unlatched position.
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10. A latch mechanism according to
12. A convertible top system according to
13. A convertible top system according to
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17. A convertible top system according to
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21. A convertible top latch mechanism according to
22. A convertible top latch mechanism according to
23. A convertible top latch mechanism according to
24. A convertible top latch mechanism according to
25. A convertible top latch mechanism according to
26. A convertible top latch mechanism according to
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The present invention relates generally, to a vehicle roof latching device; and more particularly, to such a device for securing a convertible top, hard top, or cover to a vehicle body.
Passenger vehicles having removable or retractable roof components to open the passenger compartment to the sky (hereinafter referred to as a "convertible top") have been manufactured for many years. Recently, vehicles having convertible tops have become more popular with purchasers. Consequently automobile manufacturers are manufacturing a greater variety of vehicles with convertible tops. Latches used with these convertible tops, however, can be complicated and/or relatively large.
In accordance with the present invention, a latch mechanism associated with one of a convertible top and a automobile component is provided. The latch mechanism is adapted to cooperate with an engagement member associated with the other of the convertible top and the automobile component. In another aspect of the present invention, a hook, a first guide pin and a second guide pin are provided. The first and second guide pins are associated with the hook. A first guide slot is associated with the first guide pin and a second guide slot is associated with the second guide pin. Another aspect of the present invention includes a drive mechanism associated with the latch assembly and adapted to move each of the first and second guide pins along its respective first and second guide slot to move the hook between a latched position and an unlatched position.
In still another aspect of the present invention, a hook is associated with a guide slot and a guide pin. A drive mechanism is adapted to drive the guide pin along the guide slot. The drive mechanism has a pair of elongated pivot arms aligned, spaced apart and adapted to accommodate a drive link centrally located between the pair of pivot arms and attached to each of the pivot arms. The pair of pivot arms having a longitudinal axis which is substantially parallel to the axis corresponding to the path the hook takes when the latch mechanism is in the latched position.
In yet another aspect of the present invention, a hook plate including a hook, a guide slot and a pin opening is provided. A pair of pivot arms with each pivot arm having an end connected to an end of the pin to sandwich the hook plate between the pivot arms. A drive member is centrally located between the pair of pivot arms and connected to an end of each pivot arm opposite the end connected to the pin.
Thus, latches in accordance with the present invention can provide a latch mechanism having a thin package. Such latches can also provide a long reach to grab the striker. Additionally, such latches can be particularly well suited for use with low roof-to-header approach angles. These low approach angles are often found in hard top convertible roofs.
Further areas of applicability of the present invention will become apparent from the detailed description provided hereinafter. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.
The present invention will become more fully understood from the detailed description and the accompanying drawings, wherein:
The following description of the preferred embodiments is merely exemplary in nature and is in no way intended to limit the invention, its application, or uses. For example, although the engagement member is illustrated in the drawings as being attached to the windshield header while the latch assemblies are attached to the convertible roof header, the relative positions of these components may be reversed.
Referring to
Referring to
Cooperating latch mechanism components 40 are attached to windshield header 22. For example, locating recesses 42 are positioned on windshield header 22 and adapted to cooperate with the alignment pins 38 to accurately align windshield header 22 with the number one roof bow 20 for the latching and sealing operation. In addition, engagement members 44 are positioned on windshield header 22 to cooperate with hooks 34 to latch the windshield header 22 and roof bow 20 together.
Referring to
Referring to
The adjustable mounting of the J-hook 34 is accomplished utilizing cooperating threads (not shown) and a transverse threaded pin locking member (not shown) to lock the adjusted hook 34 against rotation. The rod member 53 is generally square in cross-section at the end with the hook 34, and at the opposite end includes a centrally located slot (not seen) creating two arms. This permits a drive member 54 of the drive mechanism to be centrally attached to the rod member 53 via a guide pin 56 such that substantially no torque is transferred between the drive member 54 and the rod member 53 as a result of the drive mechanism during latching and unlatching operations.
Similarly, a pair of pivot arms 58 of the drive mechanism pivot about stationary pivot pin 59 and are attached to the upper and lower sides at a midpoint of drive member 54. Additionally, drive member 54 is attached into a slot at the end of main drive rod 32 between two arms. Again, this substantially eliminates the introduction of torque as the latch assembly 24 is operated. The drive mechanism associated with the left latch assembly has a reversing drive feature, including a pivot arm 60 and a drive link 62 connected to the main drive rod 32. Preferably the connections between these components, 34, 60, 62, 58 also utilize the dual link or central slot arrangement for connections as described above to reduce torque transmission and provide added strength.
In addition, each of the first and second slots 66, 68 includes a segment 66b, 68b which diverges from the axis in opposite lateral directions away from the axis of the segments 66a, 68a. This serves to move the hook 34 laterally so that it clears the engagement member 44 without requiring lateral translation of the two components being joined while aligning the components for latching together. In addition, by having the two diverging segments 66b, 68b, the lateral movement of the hook 34 can be increased while reducing the lateral space required to accommodate such movement (since the end of the rod member 53 moves in the laterally opposite direction at guide pin 56). Thus, the guide slots 66, 68 and guide pins 56, 64 cooperate together under the influence of the drive mechanism (including drive link 54 and pivot arm pair 58) to move the elongated hook member 52 in a direction having a radial component and then in a direction along a longitudinal axis of the hook member 52.
Upon moving into the latched position, the dual pivot arms 58 have a general longitudinal axis which is substantially parallel to a longitudinal axis of the elongated hook member 52. The relevant longitudinal axis of the hook member 52 is preferably the longitudinal axis passing through the path the hook 34 takes upon engaging the engagement member 44. Thus, the longitudinal axis extends along the direction the components being joined are pulled together during the final part of the latching operation, without causing translation of the components relative to each other. In this embodiment, the relevant longitudinal axis preferably passes centrally through the aligned segments 66a, 68a of the guide slots 66, 68. Thus, it passed centrally through the guide pins 56, 64 when they are in the latched position. In cases where the hook member 52 includes a straight elongated rod member 53, the longitudinal axis preferably extends along the central longitudinal axis of the rod member 53. In addition, the dual pivot arms 58 are preferably under compression when in the latched position.
Referring to
In this embodiment, the hook member 52 is made of a single, integral component. In addition, the upper and lower plates 36 are extended and a moving alignment pin 38 is provided. A pivot arm 72 is attached to the hook member 52 at one end and to the alignment pin 38 at its other end. The alignment pin 38 is maintained aligned along an axis parallel to the aligned segments 66a, 68a of slots (above) by guide pins 74 cooperating with a linear slot 76. Thus, as the hook member 52 is urged toward the latched position, the alignment pin 38 is axially extended. Similarly, the alignment pin 38 is retracted as the hook member 52 is urged toward the unlatched position. The alignment pin 38 cooperates with an alignment recess 42 adapted to cooperate with the alignment pin 38 to laterally align the convertible top 18 and an automobile component of the body 12 together.
Referring to
Alternatively, as seen in
Referring to
Referring to
The other end of the pivot arms 58 are attached to the main drive rod 32 of the drive mechanism by a drive pin coupling member 92. Again, the main drive rod 32 is located centrally between the two pivot arms 58 for torque reduction purposes. A pivot pin 59 attaches a midpoint of the pivot arms 58 to the upper and lower plates 36 to create a pivot point. A guide pin 65 passes through the guide slot 67 and is attached to the upper and lower plates 36. Additional pins (not seen) connect the upper and lower plates 36 together in spaced relation.
Referring to
Referring to
Referring to
In the latched position as seen in
In addition, this segment is preferably under compression, when in the latched position. It is preferable that there is a meaningful distance between the upper and lower pivot arms 58. This helps add stability to the latch assembly 50. Preferably, the distance between the upper and lower pivot arms 58 is at least about 50 mm; more preferably, at least about 60 mm; and even more preferably, at least about 80 mm. In addition, to help provide added strength the minimal thickness of each pivot arm 58 is preferably at least about 12 mm; and more preferably, at least about 17 mm.
Many modifications are possible to the various embodiments described herein. For example, the slot pairs 66, 68 of
Willard, Michael T., Alexander, Michael P., Taylor, Kim E., Doncov, Stephen A.
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